Title :
Switching field distribution changes during reaction-milling of iron-zinc nanocomposites
Author :
Pardavi-Horvath, Martha ; Takacs, Laszlo ; Cser, Ferenc
Author_Institution :
Inst. for Magnetics Res., George Washington Univ., Washington, DC, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
DC remanent hysteresis loops have been measured for a series of reaction-milled Fe-Zn nanocomposites. The remanence curves are characteristic of the amount of the material switched into the field direction in a given field. The derivative of the remanence curve, the SFDR, is directly related to the distribution of the size and shape of particles. For the relatively homogenous starting powder of Fe3 O4, SFDR=0.77, it increases to a very large value during the actual chemical reaction (after 2 hrs of milling), and it decreases to 1.00 after 9 hrs of milling, indicating that the resulting Fe particles have a wider size and shape distribution than the original powder. The change in SFDR can be used as a quick tool for characterizing the magnetic particles in the nanocomposite
Keywords :
composite materials; iron; magnetic hysteresis; magnetic particles; magnetic switching; nanostructured materials; powder metallurgy; remanence; zinc; DC remanent hysteresis loops; Fe-Zn; iron-zinc nanocomposites; magnetic particles; powders; reaction milling; switching field distribution; Chemicals; Iron; Magnetic field measurement; Magnetic hysteresis; Magnetic particles; Milling; Nanocomposites; Powders; Remanence; Shape;
Journal_Title :
Magnetics, IEEE Transactions on
